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/*
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 * in compliance with the License. You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software distributed under the License
 * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
 * or implied. See the License for the specific language governing permissions and limitations under
 * the License.
 */
/*
 * This code was generated by https://github.com/googleapis/google-api-java-client-services/
 * Modify at your own risk.
 */

package com.google.api.services.servicemanagement.model;

/**
 * Defines a metric type and its schema. Once a metric descriptor is created, deleting or altering
 * it stops data collection and makes the metric type's existing data unusable.
 *
 * 

This is the Java data model class that specifies how to parse/serialize into the JSON that is * transmitted over HTTP when working with the Service Management API. For a detailed explanation * see: * https://developers.google.com/api-client-library/java/google-http-java-client/json *

* * @author Google, Inc. */ @SuppressWarnings("javadoc") public final class MetricDescriptor extends com.google.api.client.json.GenericJson { /** * A detailed description of the metric, which can be used in documentation. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String description; /** * A concise name for the metric, which can be displayed in user interfaces. Use sentence case * without an ending period, for example "Request count". This field is optional but it is * recommended to be set for any metrics associated with user-visible concepts, such as Quota. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String displayName; /** * The set of labels that can be used to describe a specific instance of this metric type. For * example, the `appengine.googleapis.com/http/server/response_latencies` metric type has a label * for the HTTP response code, `response_code`, so you can look at latencies for successful * responses or just for responses that failed. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.util.List labels; static { // hack to force ProGuard to consider LabelDescriptor used, since otherwise it would be stripped out // see https://github.com/google/google-api-java-client/issues/543 com.google.api.client.util.Data.nullOf(LabelDescriptor.class); } /** * Optional. The launch stage of the metric definition. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String launchStage; /** * Optional. Metadata which can be used to guide usage of the metric. * The value may be {@code null}. */ @com.google.api.client.util.Key private MetricDescriptorMetadata metadata; /** * Whether the metric records instantaneous values, changes to a value, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String metricKind; /** * Read-only. If present, then a time series, which is identified partially by a metric type and a * MonitoredResourceDescriptor, that is associated with this metric type can only be associated * with one of the monitored resource types listed here. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.util.List monitoredResourceTypes; /** * The resource name of the metric descriptor. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String name; /** * The metric type, including its DNS name prefix. The type is not URL-encoded. All user-defined * metric types have the DNS name `custom.googleapis.com` or `external.googleapis.com`. Metric * types should use a natural hierarchical grouping. For example: * "custom.googleapis.com/invoice/paid/amount" "external.googleapis.com/prometheus/up" * "appengine.googleapis.com/http/server/response_latencies" * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String type; /** * The units in which the metric value is reported. It is only applicable if the `value_type` is * `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit` defines the representation of the stored * metric values. Different systems might scale the values to be more easily displayed (so a value * of `0.02kBy` _might_ be displayed as `20By`, and a value of `3523kBy` _might_ be displayed as * `3.5MBy`). However, if the `unit` is `kBy`, then the value of the metric is always in thousands * of bytes, no matter how it might be displayed. If you want a custom metric to record the exact * number of CPU-seconds used by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` * is `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005 CPU-seconds, then * the value is written as `12005`. Alternatively, if you want a custom metric to record data in a * more granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is `ks{CPU}`, and * then write the value `12.005` (which is `12005/1000`), or use `Kis{CPU}` and write `11.723` * (which is `12005/1024`). The supported units are a subset of [The Unified Code for Units of * Measure](https://unitsofmeasure.org/ucum.html) standard: **Basic units (UNIT)** * `bit` bit * * `By` byte * `s` second * `min` minute * `h` hour * `d` day * `1` dimensionless **Prefixes * (PREFIX)** * `k` kilo (10^3) * `M` mega (10^6) * `G` giga (10^9) * `T` tera (10^12) * `P` peta * (10^15) * `E` exa (10^18) * `Z` zetta (10^21) * `Y` yotta (10^24) * `m` milli (10^-3) * `u` * micro (10^-6) * `n` nano (10^-9) * `p` pico (10^-12) * `f` femto (10^-15) * `a` atto (10^-18) * * `z` zepto (10^-21) * `y` yocto (10^-24) * `Ki` kibi (2^10) * `Mi` mebi (2^20) * `Gi` gibi * (2^30) * `Ti` tebi (2^40) * `Pi` pebi (2^50) **Grammar** The grammar also includes these * connectors: * `/` division or ratio (as an infix operator). For examples, `kBy/{email}` or * `MiBy/10ms` (although you should almost never have `/s` in a metric `unit`; rates should always * be computed at query time from the underlying cumulative or delta value). * `.` multiplication * or composition (as an infix operator). For examples, `GBy.d` or `k{watt}.h`. The grammar for a * unit is as follows: Expression = Component { "." Component } { "/" Component } ; Component = ( * [ PREFIX ] UNIT | "%" ) [ Annotation ] | Annotation | "1" ; Annotation = "{" NAME "}" ; Notes: * * `Annotation` is just a comment if it follows a `UNIT`. If the annotation is used alone, then * the unit is equivalent to `1`. For examples, `{request}/s == 1/s`, `By{transmitted}/s == By/s`. * * `NAME` is a sequence of non-blank printable ASCII characters not containing `{` or `}`. * `1` * represents a unitary [dimensionless unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) * of 1, such as in `1/s`. It is typically used when none of the basic units are appropriate. For * example, "new users per day" can be represented as `1/d` or `{new-users}/d` (and a metric value * `5` would mean "5 new users). Alternatively, "thousands of page views per day" would be * represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric value of `5.3` would mean * "5300 page views per day"). * `%` represents dimensionless value of 1/100, and annotates values * giving a percentage (so the metric values are typically in the range of 0..100, and a metric * value `3` means "3 percent"). * `10^2.%` indicates a metric contains a ratio, typically in the * range 0..1, that will be multiplied by 100 and displayed as a percentage (so a metric value * `0.03` means "3 percent"). * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String unit; /** * Whether the measurement is an integer, a floating-point number, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * The value may be {@code null}. */ @com.google.api.client.util.Key private java.lang.String valueType; /** * A detailed description of the metric, which can be used in documentation. * @return value or {@code null} for none */ public java.lang.String getDescription() { return description; } /** * A detailed description of the metric, which can be used in documentation. * @param description description or {@code null} for none */ public MetricDescriptor setDescription(java.lang.String description) { this.description = description; return this; } /** * A concise name for the metric, which can be displayed in user interfaces. Use sentence case * without an ending period, for example "Request count". This field is optional but it is * recommended to be set for any metrics associated with user-visible concepts, such as Quota. * @return value or {@code null} for none */ public java.lang.String getDisplayName() { return displayName; } /** * A concise name for the metric, which can be displayed in user interfaces. Use sentence case * without an ending period, for example "Request count". This field is optional but it is * recommended to be set for any metrics associated with user-visible concepts, such as Quota. * @param displayName displayName or {@code null} for none */ public MetricDescriptor setDisplayName(java.lang.String displayName) { this.displayName = displayName; return this; } /** * The set of labels that can be used to describe a specific instance of this metric type. For * example, the `appengine.googleapis.com/http/server/response_latencies` metric type has a label * for the HTTP response code, `response_code`, so you can look at latencies for successful * responses or just for responses that failed. * @return value or {@code null} for none */ public java.util.List getLabels() { return labels; } /** * The set of labels that can be used to describe a specific instance of this metric type. For * example, the `appengine.googleapis.com/http/server/response_latencies` metric type has a label * for the HTTP response code, `response_code`, so you can look at latencies for successful * responses or just for responses that failed. * @param labels labels or {@code null} for none */ public MetricDescriptor setLabels(java.util.List labels) { this.labels = labels; return this; } /** * Optional. The launch stage of the metric definition. * @return value or {@code null} for none */ public java.lang.String getLaunchStage() { return launchStage; } /** * Optional. The launch stage of the metric definition. * @param launchStage launchStage or {@code null} for none */ public MetricDescriptor setLaunchStage(java.lang.String launchStage) { this.launchStage = launchStage; return this; } /** * Optional. Metadata which can be used to guide usage of the metric. * @return value or {@code null} for none */ public MetricDescriptorMetadata getMetadata() { return metadata; } /** * Optional. Metadata which can be used to guide usage of the metric. * @param metadata metadata or {@code null} for none */ public MetricDescriptor setMetadata(MetricDescriptorMetadata metadata) { this.metadata = metadata; return this; } /** * Whether the metric records instantaneous values, changes to a value, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * @return value or {@code null} for none */ public java.lang.String getMetricKind() { return metricKind; } /** * Whether the metric records instantaneous values, changes to a value, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * @param metricKind metricKind or {@code null} for none */ public MetricDescriptor setMetricKind(java.lang.String metricKind) { this.metricKind = metricKind; return this; } /** * Read-only. If present, then a time series, which is identified partially by a metric type and a * MonitoredResourceDescriptor, that is associated with this metric type can only be associated * with one of the monitored resource types listed here. * @return value or {@code null} for none */ public java.util.List getMonitoredResourceTypes() { return monitoredResourceTypes; } /** * Read-only. If present, then a time series, which is identified partially by a metric type and a * MonitoredResourceDescriptor, that is associated with this metric type can only be associated * with one of the monitored resource types listed here. * @param monitoredResourceTypes monitoredResourceTypes or {@code null} for none */ public MetricDescriptor setMonitoredResourceTypes(java.util.List monitoredResourceTypes) { this.monitoredResourceTypes = monitoredResourceTypes; return this; } /** * The resource name of the metric descriptor. * @return value or {@code null} for none */ public java.lang.String getName() { return name; } /** * The resource name of the metric descriptor. * @param name name or {@code null} for none */ public MetricDescriptor setName(java.lang.String name) { this.name = name; return this; } /** * The metric type, including its DNS name prefix. The type is not URL-encoded. All user-defined * metric types have the DNS name `custom.googleapis.com` or `external.googleapis.com`. Metric * types should use a natural hierarchical grouping. For example: * "custom.googleapis.com/invoice/paid/amount" "external.googleapis.com/prometheus/up" * "appengine.googleapis.com/http/server/response_latencies" * @return value or {@code null} for none */ public java.lang.String getType() { return type; } /** * The metric type, including its DNS name prefix. The type is not URL-encoded. All user-defined * metric types have the DNS name `custom.googleapis.com` or `external.googleapis.com`. Metric * types should use a natural hierarchical grouping. For example: * "custom.googleapis.com/invoice/paid/amount" "external.googleapis.com/prometheus/up" * "appengine.googleapis.com/http/server/response_latencies" * @param type type or {@code null} for none */ public MetricDescriptor setType(java.lang.String type) { this.type = type; return this; } /** * The units in which the metric value is reported. It is only applicable if the `value_type` is * `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit` defines the representation of the stored * metric values. Different systems might scale the values to be more easily displayed (so a value * of `0.02kBy` _might_ be displayed as `20By`, and a value of `3523kBy` _might_ be displayed as * `3.5MBy`). However, if the `unit` is `kBy`, then the value of the metric is always in thousands * of bytes, no matter how it might be displayed. If you want a custom metric to record the exact * number of CPU-seconds used by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` * is `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005 CPU-seconds, then * the value is written as `12005`. Alternatively, if you want a custom metric to record data in a * more granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is `ks{CPU}`, and * then write the value `12.005` (which is `12005/1000`), or use `Kis{CPU}` and write `11.723` * (which is `12005/1024`). The supported units are a subset of [The Unified Code for Units of * Measure](https://unitsofmeasure.org/ucum.html) standard: **Basic units (UNIT)** * `bit` bit * * `By` byte * `s` second * `min` minute * `h` hour * `d` day * `1` dimensionless **Prefixes * (PREFIX)** * `k` kilo (10^3) * `M` mega (10^6) * `G` giga (10^9) * `T` tera (10^12) * `P` peta * (10^15) * `E` exa (10^18) * `Z` zetta (10^21) * `Y` yotta (10^24) * `m` milli (10^-3) * `u` * micro (10^-6) * `n` nano (10^-9) * `p` pico (10^-12) * `f` femto (10^-15) * `a` atto (10^-18) * * `z` zepto (10^-21) * `y` yocto (10^-24) * `Ki` kibi (2^10) * `Mi` mebi (2^20) * `Gi` gibi * (2^30) * `Ti` tebi (2^40) * `Pi` pebi (2^50) **Grammar** The grammar also includes these * connectors: * `/` division or ratio (as an infix operator). For examples, `kBy/{email}` or * `MiBy/10ms` (although you should almost never have `/s` in a metric `unit`; rates should always * be computed at query time from the underlying cumulative or delta value). * `.` multiplication * or composition (as an infix operator). For examples, `GBy.d` or `k{watt}.h`. The grammar for a * unit is as follows: Expression = Component { "." Component } { "/" Component } ; Component = ( * [ PREFIX ] UNIT | "%" ) [ Annotation ] | Annotation | "1" ; Annotation = "{" NAME "}" ; Notes: * * `Annotation` is just a comment if it follows a `UNIT`. If the annotation is used alone, then * the unit is equivalent to `1`. For examples, `{request}/s == 1/s`, `By{transmitted}/s == By/s`. * * `NAME` is a sequence of non-blank printable ASCII characters not containing `{` or `}`. * `1` * represents a unitary [dimensionless unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) * of 1, such as in `1/s`. It is typically used when none of the basic units are appropriate. For * example, "new users per day" can be represented as `1/d` or `{new-users}/d` (and a metric value * `5` would mean "5 new users). Alternatively, "thousands of page views per day" would be * represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric value of `5.3` would mean * "5300 page views per day"). * `%` represents dimensionless value of 1/100, and annotates values * giving a percentage (so the metric values are typically in the range of 0..100, and a metric * value `3` means "3 percent"). * `10^2.%` indicates a metric contains a ratio, typically in the * range 0..1, that will be multiplied by 100 and displayed as a percentage (so a metric value * `0.03` means "3 percent"). * @return value or {@code null} for none */ public java.lang.String getUnit() { return unit; } /** * The units in which the metric value is reported. It is only applicable if the `value_type` is * `INT64`, `DOUBLE`, or `DISTRIBUTION`. The `unit` defines the representation of the stored * metric values. Different systems might scale the values to be more easily displayed (so a value * of `0.02kBy` _might_ be displayed as `20By`, and a value of `3523kBy` _might_ be displayed as * `3.5MBy`). However, if the `unit` is `kBy`, then the value of the metric is always in thousands * of bytes, no matter how it might be displayed. If you want a custom metric to record the exact * number of CPU-seconds used by a job, you can create an `INT64 CUMULATIVE` metric whose `unit` * is `s{CPU}` (or equivalently `1s{CPU}` or just `s`). If the job uses 12,005 CPU-seconds, then * the value is written as `12005`. Alternatively, if you want a custom metric to record data in a * more granular way, you can create a `DOUBLE CUMULATIVE` metric whose `unit` is `ks{CPU}`, and * then write the value `12.005` (which is `12005/1000`), or use `Kis{CPU}` and write `11.723` * (which is `12005/1024`). The supported units are a subset of [The Unified Code for Units of * Measure](https://unitsofmeasure.org/ucum.html) standard: **Basic units (UNIT)** * `bit` bit * * `By` byte * `s` second * `min` minute * `h` hour * `d` day * `1` dimensionless **Prefixes * (PREFIX)** * `k` kilo (10^3) * `M` mega (10^6) * `G` giga (10^9) * `T` tera (10^12) * `P` peta * (10^15) * `E` exa (10^18) * `Z` zetta (10^21) * `Y` yotta (10^24) * `m` milli (10^-3) * `u` * micro (10^-6) * `n` nano (10^-9) * `p` pico (10^-12) * `f` femto (10^-15) * `a` atto (10^-18) * * `z` zepto (10^-21) * `y` yocto (10^-24) * `Ki` kibi (2^10) * `Mi` mebi (2^20) * `Gi` gibi * (2^30) * `Ti` tebi (2^40) * `Pi` pebi (2^50) **Grammar** The grammar also includes these * connectors: * `/` division or ratio (as an infix operator). For examples, `kBy/{email}` or * `MiBy/10ms` (although you should almost never have `/s` in a metric `unit`; rates should always * be computed at query time from the underlying cumulative or delta value). * `.` multiplication * or composition (as an infix operator). For examples, `GBy.d` or `k{watt}.h`. The grammar for a * unit is as follows: Expression = Component { "." Component } { "/" Component } ; Component = ( * [ PREFIX ] UNIT | "%" ) [ Annotation ] | Annotation | "1" ; Annotation = "{" NAME "}" ; Notes: * * `Annotation` is just a comment if it follows a `UNIT`. If the annotation is used alone, then * the unit is equivalent to `1`. For examples, `{request}/s == 1/s`, `By{transmitted}/s == By/s`. * * `NAME` is a sequence of non-blank printable ASCII characters not containing `{` or `}`. * `1` * represents a unitary [dimensionless unit](https://en.wikipedia.org/wiki/Dimensionless_quantity) * of 1, such as in `1/s`. It is typically used when none of the basic units are appropriate. For * example, "new users per day" can be represented as `1/d` or `{new-users}/d` (and a metric value * `5` would mean "5 new users). Alternatively, "thousands of page views per day" would be * represented as `1000/d` or `k1/d` or `k{page_views}/d` (and a metric value of `5.3` would mean * "5300 page views per day"). * `%` represents dimensionless value of 1/100, and annotates values * giving a percentage (so the metric values are typically in the range of 0..100, and a metric * value `3` means "3 percent"). * `10^2.%` indicates a metric contains a ratio, typically in the * range 0..1, that will be multiplied by 100 and displayed as a percentage (so a metric value * `0.03` means "3 percent"). * @param unit unit or {@code null} for none */ public MetricDescriptor setUnit(java.lang.String unit) { this.unit = unit; return this; } /** * Whether the measurement is an integer, a floating-point number, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * @return value or {@code null} for none */ public java.lang.String getValueType() { return valueType; } /** * Whether the measurement is an integer, a floating-point number, etc. Some combinations of * `metric_kind` and `value_type` might not be supported. * @param valueType valueType or {@code null} for none */ public MetricDescriptor setValueType(java.lang.String valueType) { this.valueType = valueType; return this; } @Override public MetricDescriptor set(String fieldName, Object value) { return (MetricDescriptor) super.set(fieldName, value); } @Override public MetricDescriptor clone() { return (MetricDescriptor) super.clone(); } }




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